April 1998
Volume 39, Issue 5
Free
Articles  |   April 1998
Preconditioning provides complete protection against retinal ischemic injury in rats.
Author Affiliations
  • S Roth
    Department of Anesthesia and Critical Care, University of Chicago, Illinois, USA.
  • B Li
    Department of Anesthesia and Critical Care, University of Chicago, Illinois, USA.
  • P S Rosenbaum
    Department of Anesthesia and Critical Care, University of Chicago, Illinois, USA.
  • H Gupta
    Department of Anesthesia and Critical Care, University of Chicago, Illinois, USA.
  • I M Goldstein
    Department of Anesthesia and Critical Care, University of Chicago, Illinois, USA.
  • K M Maxwell
    Department of Anesthesia and Critical Care, University of Chicago, Illinois, USA.
  • J M Gidday
    Department of Anesthesia and Critical Care, University of Chicago, Illinois, USA.
Investigative Ophthalmology & Visual Science April 1998, Vol.39, 777-785. doi:
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      S Roth, B Li, P S Rosenbaum, H Gupta, I M Goldstein, K M Maxwell, J M Gidday; Preconditioning provides complete protection against retinal ischemic injury in rats.. Invest. Ophthalmol. Vis. Sci. 1998;39(5):777-785.

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Abstract

PURPOSE: The objectives of this study were to examine whether preconditioning can decrease ischemic damage to the retina, by electroretinographic assessment of visual function and by histologic examination of retinal structure; to investigate the time course of the effectiveness of preconditioning; and to determine whether protein synthesis is involved. METHODS: Retinal ischemia was produced for 60 minutes in anesthetized Sprague-Dawley rats. Recovery after ischemia was measured by electroretinography for a maximum period of 7 days. Retinal sections that were sliced 1 micron thick were examined 7 days after ischemia. Retinal ischemia for 5 minutes constituted the preconditioning stimulus. To assess the time course of preconditioning, animals first underwent preconditioning and then 60 minutes of ischemia 1, 24, 72, or 168 hours later; or they underwent a 5-minute sham experiment and 60 minutes of ischemia 24 hours later. An additional group of rats received 0.4 mg/kg cycloheximide, the protein synthesis inhibitor, intraperitoneally before preconditioning and underwent 60 minutes of ischemia 24 hours later. RESULTS: In contrast to the nonpreconditioned rats, preconditioned rats had complete recovery of the a- and b-waves compared with preischemic baseline amplitudes, and ischemia-induced histologic damage was completely prevented when preconditioning was performed 24 or 72 hours (but not 168 hours) before ischemia. Separation of preconditioning and 60 minutes of ischemia by 1 hour caused an even greater impairment of functional retinal recovery compared with that seen in sham-preconditioned rats. Severe histologic damage was also noted. Block of protein synthesis by cycloheximide completely attenuated the protective effect of preconditioning. CONCLUSIONS: Preconditioning induces profound retinal tolerance to ischemia in vivo. The absence of a protective effect of preconditioning when there was a 1-hour or a 168-hour separation between the preconditioning stimulus and ischemia and the inhibition of preconditioning by cycloheximide support the hypothesis that a transient change in protein expression is necessary to provide this protection.

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